N. Raigoza, C.A. Duque, N. Porras-Montenegro, L.E. Oliveira

We perform a theoretical study, using a variational approach, of the effects of hydrostatic pressure on the exciton binding energies and photoluminescence peak positions in GaAs2Ga1
xAlxAs cylindrical quantum-well wires within the effective-mass approximation. Calculated results suggest that future device applications may be realized by properly varying the wire dimensions and applying hydrostatic pressure.